System and Method for Providing Visual and Physiological Cues in a Security Matching System

ABSTRACT

A system and method for displaying a security alert. First and second user monitors are configured to communicate with an interrogator to establish the presence of the user monitors in a defined space. An information server is configured to determine a degree to which the users of the first and second user monitors are permitted to exchange information according to security matching criteria applied to user profiles. Security alert signals are sent to first and second match indicators. The first match indicator is visible to the user of the second user monitor so as to be informative to the user of the second user monitor of a degree to which the users of the first and second user monitors are permitted to exchange information according to the security matching criteria. The second match indicator is visible to the user of the first user monitor so as to be informative to the user of the first user monitor of a degree to which the users of the first and second user monitors are permitted to exchange information according to the security matching criteria.

RELATIONSHIP TO OTHER APPLICATIONS

This application is a continuation of U.S. application Ser. No. 12/114,981, filed May 5, 2008, which is a continuation of U.S. application Ser. No. 11/844,798, filed Aug. 24, 2007, now U.S. Pat. No. 7,391,331. The Ser. No. 12/114,981 and the Ser. No. 11/844,798 applications from which priority is claimed are incorporated by reference for all purposes.

BACKGROUND AND SUMMARY

Conceptually, the world can be divided into those with needs and/or desires and people with potential means of satisfying those needs and/or desires. For example, a salesperson may be seeking potential clients. A single person may be seeking a dating partner. A guitar player may be seeking a drummer. A shopper may be looking for a particular item to buy. The difficulty has been in bringing the seekers into close proximity and in providing them sufficient information to allow them to decide if their interests coincide.

Solutions to this problem are sometimes referred to as matching systems and involve varying mechanisms for assessing whether a profile of the problem owner and a profile of a solution owner “match” sufficiently to provide information to at least one of the parties about the other. For example, RFID, GPS, and Bluetooth technology has been proposed to identify individuals with related interests when they are in proximity to each other. If the individuals are sufficiently close to each other, various systems have been combined with profile records to determine if the individuals have interests that “match” and, if so, to facilitate the exchange of location information between the individuals. Ad hoc wireless networks have also been described that facilitate such an exchange. Reference is made to U.S. Pat. Nos. 6,711,414 and 6,757,719 to Lightman et al., 6,977,612 to Bennett, 6,996,402 to Logan, 6,618,593 to Drutman, 6,491,217 and 6,758,397 to Catan, 7,098,793 and 6,961,000 both to Chung, 6,992,574 to Aupperle, et al., and 7,092,002 to Ferren et al., U.S. Patent Application 2005/0174975 filed by Mgrdechian, et al., U.S. Patent Application 2007/0030824 filed by Ribaudo et al., U.S. Patent Application 2006/0256959 filed by Hymes, U.S. Patent Application 2007/0096909 filed by Lally, and U.S. Patent Applications 2005/0177614 and 2005/0272413 filed by Bourne, all of which are incorporated herein by reference for all purposes.

These solutions are generally directed to providing information to individuals having matching profiles. However well designed, such matching systems cannot account for the importance of visual cues and other physiological indicators in determining whether to interact with another person, whether it is for social or business purposes.

Classified information is secret information to which access is restricted by law or corporate rules to a particular hierarchical class of people. A security clearance is permission to handle classified documents or class of information, often requiring a satisfactory background check. This sort of hierarchical system of secrecy is used by virtually every national government, and by many corporations as well.

CONFIDENTIAL: Applied to information or material the unauthorized disclosure of which could be reasonably expected to cause damage to the national security.

SECRET: Applied to information or material the unauthorized disclosure of which reasonably could be expected to cause serious damage to the national security.

TOP SECRET: Applied to information or material the unauthorized disclosure of which reasonably could be expected to cause exceptionally grave damage to the national security.

In addition to the above, some classified information is so sensitive that even the extra protection measures applied to Top Secret information are not sufficient. This information is known as “Sensitive Compartmented Information” (SCI) or Special Access Programs (SAP), and one needs special “SCI Access” or SAP approval to be given access to this information.

Merely having a certain level of Security Clearance does not mean one is authorized to view classified information. To have access to classified information, one must possess the necessary two elements: A level of Security Clearance, at least equal to the classification of the information, AND, an appropriate “need to know” the information in order to perform their duties. Just because a person has a SECRET Clearance, that would not the person access to ALL Secret Information possessed by the organization. Each cleared person would need to have a specific reason to know that information, before they could be granted access.

What would be useful is an information exchange system that provides visual and physiological cues to users.

In an embodiment, a first user monitor is configured to transmit a first response signal comprising first identification information to a presence detector establishing a presence of the first user monitor within a defined space. A second user monitor is configured to transmit a second response signal comprising second identification information to the presence detector establishing a presence of the second user monitor within the defined space. An interrogator is configured to receive the identification information from the first and second user monitors and to send the identification information to an information server.

In this embodiment, the information server is configured to store a first user profile comprising information associated with a user of the first user monitor and a second user profile comprising information associated with a user of the second user monitor and to receive the information establishing the presence of the first and the second user monitors. If the first and second user monitors are present, the information server is configured to determine whether the first and the second user profiles match according to matching criteria.

If the first and the second user profiles match according to the matching criteria, then send a first matching alert signal comprising a first matching attribute to a first match indicator and a second matching alert signal comprising a second matching attribute to a second match indicator. The first matching attribute is displayed on the first match indicator, wherein the first match indicator is visible to the user of the second user monitor so as to be informative to the user of the second user monitor of the matching of the first and second user profiles according to the matching criteria. The second matching attribute is displayed on the second match indicator, wherein the second match indicator is visible to the user of the first user monitor so as to be informative to the user of the first user monitor of the matching of the first and second user profiles according to the matching criteria. In an embodiment, the first matching attribute is unique to the user of the second user monitor and the second matching attribute is unique to the user of the first user monitor.

By way of illustration and not as a limitation, the user monitor may be an RFID enabled device, a Bluetooth enabled device, a GPS enabled device, and a WiFi enabled device.

By way of illustration and not as a limitation, the first and second matching attributes are selected from the group consisting of a background color, a background hue, a display color, a display hue, a symbol, text, animation, and an animation rate.

In another embodiment, the information server receives physiological data of the user of the first user monitor from a sensor. A bio response processor located in the first user monitor is configured to receive the physiological data from the sensor, determine a measure of attraction of the user of the first user monitor to the user of the second user monitor from at least one element of the physiological data and create an attraction attribute indicative of the attraction measure. The bio response processor then sends an attraction signal to the first match indicator comprising the attraction attribute. The first match indicator displays the attraction attribute so as to be informative of the attraction of the user of the first user monitor to the user of the second user monitor.

In yet another embodiment, the information server receives physiological data of the user of the first user monitor from a sensor. A bio response processor located in the first user monitor is configured to receive the physiological data from the sensor, determine a measure of truthfulness of the user of the first user monitor to the user of the second user monitor from at least one element of the physiological data and create a truthfulness attribute indicative of the truthfulness measure. The bio response processor then sends a truthfulness signal to the first match indicator comprising the truthfulness attribute. The first match indicator displays the truthfulness attribute so as to be informative of the truthfulness of the user of the first user monitor to the user of the second user monitor.

In another embodiment, the information server receives profile information and physiological data from at least one of the plurality of users. The information server determines a measure of truthfulness of the user relating to the profile information from at least one element of the physiological data. The information server then determines whether the measure of truthfulness is equal to or greater than a minimum threshold value. If the measure of truthfulness is equal to or greater than a minimum threshold value, the profile information is stored. If the measure of truthfulness is less than the minimum threshold value, then the profile information is rejected.

By way of illustration and not as a limitation, the physiological data are selected from the group consisting of a heart rate, a measure of blood pressure, a measure of breathing rate, a measure of skin resistance, a measure of body temperature, a voice pattern, and a measure of brain electrical activity.

DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates the logical elements of a matching system according to an embodiment hereof.

FIG. 2 illustrates a match indicator according to an embodiment hereof.

FIG. 3 illustrates a matching process according to an embodiment hereof.

FIGS. 4A and 4B illustrate a matching process according to an embodiment.

FIG. 5 illustrates the logical elements of an RFID-based matching system according to an embodiment hereof.

FIG. 6 illustrates the logical elements of a matching system using RFID tags according to an embodiment hereof.

DETAILED DESCRIPTION

FIG. 1 illustrates the logical elements of a matching system according to an embodiment hereof. Referring to FIG. 1, an information server 110 interacts with users A and B, each possessing RFID monitors 138 and 150 respectively. Information server 110 comprises a processor 114, a user A record 120 and a user B record 122. User A monitor 138 comprises presence tag A 144, client A 140, communications system A 141, and match indicator A 142. Presence tag A 144 comprises memory 146 in which identifier A 148 is stored. Memory 146 may be read only or programmable read/write memory. User A is associated with identifier A 148 in user A record 120 in information server 110. Additionally, information server 110 comprises a communications system 124 for communicating with clients A and B (140 and 152 respectively).

User B monitor 150 comprises presence tag B 156, client B 152, communications system B 153, and match indicator B 154. Presence tag B 156 comprises memory B 158 in which identifier B 160 is stored. Memory 158 may be read only or programmable read/write memory. User B is associated with identifier B 160 in user B record 122 in information server 110.

In the embodiment illustrated in FIG. 1, presence tags A and B (144 and 156 respectively) are passive devices. By way of illustration and not as a limitation, RFID tags and RFID enabled devices may be used to perform the functions of the presence tags. However, the present invention is not so limited. Semi-passive or active presence tags may be utilized for presence tags A and B. While RFID tags are suitable in present-day technology, embodiments should not be construed to be limited to this particular technology. What is anticipated are objects that can be worn that perform the functions as noted herein. By way of illustration and not as a limitation, Bluetooth-enabled devices, GPS-enabled devices, and Wi-Fi-enabled devices may also be used to perform the functions of the presence tags.

User records A and B (120 and 122 respectively) each comprise a user profile. By way of illustration and not as a limitation, a user profile comprises characteristic data and preference data. The characteristic data may include age, marital status, physical size, physical limitations, and similar personal information. Preference data, for example, may include information relevant to establishing a business relationship or a social relationship and information related to preferences in food, clothing, sports, entertainment, and music. Thus information about the user and information concerning the user's preference for others are part of the user's profile.

User profile data may be collected from a user via a computer, a telephone, or via a personal interview. In an embodiment, a user is interviewed and the voice of the user is processed by a voice pattern recognition algorithm to determine whether the answers given by the user are truthful. Detection of stress in a voice pattern algorithm may indicate that a user is lying or that the particular response is a subject of stress for the user that requires further exploration via questions or perhaps human interaction. Users that are not truthful or who may not be able to complete a questionnaire without a stress reaction are not allowed into the system. As will be appreciated by those skilled in the art, other methods of determining the truthfulness or stress of a user may be used as well.

Presence detector 130 receives a presence signal from a presence tag (such as 144 and 156) that is within range of the presence detector 130. A presence signal received by presence detector 130 comprises the presence tag identifier of the responding presence tag (such as 148 and 160). The presence detector receives the presence signal and sends the presence tag identifier and other signal parameters such as strength to information processor 114. Information processor 114 stores the location of the presence detector 130 in association with the presence tag identifier in the appropriate user record (such as 120 or 122).

The presence signal may be further processed to determine a physical distance between a presence tag (such as 148 and 160) and the presence detector 130. In an embodiment, information processor 114 uses the signal strength of the presence signal to determine a separation distance between the presence detector 130 and any given presence tag 148, 156. The distance determination may be refined by varying the power of the query signal transmitted by the presence detector 130 and/or varying the sensitivity of the presence detector 130 to the presence signal. In this way, the accuracy of the location of a particular user relative to an array of presence detectors may be varied to suit a particular need.

The information server 110 communicates with clients A and B (140 and 152 respectively) via links established between communications system A 141, communications system B 153, and communications system 124. By way of illustration and not as a limitation, a client may be a standalone device or it may be a communications device such as a cellular phone, a pager, a personal data assistant, a transponder, a radio, a walkie-talkie, or a wireless Internet access device. Clients A and B (140 and 152 respectively) may also communicate with information server 110 to manage their respective user records, including the user profile. In an embodiment, information server 110 stores the user profile locally.

Client A further comprises a client A display 170 and a client A user input 175. Client B further comprises a client B display 180 and a client B user input 185. Client A display 170 and client B display 180 may display messages from information server 110. Client A user input 175 and client B user input 185 allow clients A and B respectively to compose queries and respond to queries from information server 110. By way of illustration and not as a limitation, client A user input 175 and client B user input 185 may be touch screens, key pads, pointing devices, thumbwheels or similar input devices.

In an embodiment, information processor 114 comprises a set of “default” instructions that determine how the profile information of user A and user B as reflected in user A record 120 and user B record 122 is to be related or “matched.” For example, the default matching instructions may require that a match will be determined only if the age difference between user A and user B is ten years or less. Other more complex matches are within the scope of the various embodiments and may be multi-dimensional in nature leading to a “score” related to compatibility of the match.

In an embodiment, when a determination is made that matching scores of users A and B are within an acceptable range or exceed a predetermined threshold, a match alert signal is sent from the information server 110 via communication system 124 to the clients 140 and 152 of users A and B. As will be appreciated by those skilled in the art, the match alert signal may comprise audio information, video information, textual information, or graphical information. Additionally, the match alert signal may provide location information of a user where a “match” is present or provide directions to the location of a user with whom a “match” exists.

In an embodiment, the match alert signal is passed by the client A 140 to a match indicator A 142 worn by user A and by client 152 to match indicator 154. The match indicator A 142 is visible to user B. User B wears match indicator B 154 that is visible to user A. When user A and user B come within proximity to each other, match indicators A and B (142 and 154 respectively) are illuminated in a manner that indicates that users A and B have been matched by information processor 114. Additionally, client A display 170 and client B display 180 may be illuminated in a characteristic manner indicative of a match. Other embodiments may also indicate the strength of the match that is detected by the information processor 114.

In another embodiment, each user is assigned a display attribute. The match alert signal that is sent to user A comprises the display attribute that is assigned to user B. The match alert signal that is sent to user B comprises the display attribute that is assigned to user A. When user A and user B come within proximity to each other, and provided that their respective profiles have been determined to match, match indicators A and B (142 and 154 respectively) display the display attribute that has been previously assigned to the other user. By way of illustration, user A may be assigned the symbol A in a red background and user B may be assigned the symbol B in a blue background. When user A and user B are in proximity to each other, if the profiles of user A and B match, the match indicator of user A would display a B in a blue background and the match indicator of user B would display an A in a red background. The display attribute sent to user A may also be displayed on client A display 170 and the display attribute sent to user B may also be displayed on client B display 180.

In an embodiment, client 140 “announces” the matching attribute of user A to user B and the matching attribute of user B to user A. The announcement may be made by a text message or a synthesized voice message or other manner that alerts the respective users. In yet another embodiment, the language of the synthesized voice message may be selected by the user.

The default matching instructions may be modified by a preference setting in a user profile stored in the user's user record 120, 122. For example, if user B's profile requires that the age difference not exceed two years, the default matching instructions will be modified to use the age criterion of user B's profile.

In an embodiment, a “match” between the profiles of user A and user B is quantitatively determined. In this embodiment, the default matching instructions produce a total matching score by assigning values to specific matching criteria. The default matching criteria and the weight assigned to a specific criterion may be modified by the user in establishing the user records 120, 122. If the matching score exceeds a threshold value or is within an acceptable range, the matching score is communicated to users A and B through their respective clients (140 and 152 respectively) via communications system 124. The user may use the client (140 and 152 respectively) to request additional information from the information server 110 regarding the matching score and/or override the matching determination made by the information server 110.

In circumstances where the default matching instructions have been modified by a user, or where the match is determined quantitatively, the display attribute may comprise an intensity, hue or saturation component that is indicative of the degree of the match. For example, color, hue and saturation levels are assigned to users A and B as a matching attribute. The matching attribute will display the color having a hue and saturation depending on the level of matching of the users as determined by the information processor 114. The matching attribute values may be different for users A and B depending on whether one or both of the users' profiles have matching instructions or if either or both users determine the matching value at their respective clients. Thus user A's match indicator may inform user B that user A is a match (color) but qualitatively low in terms of scoring (hue and saturation). User B's match indicator may inform user A that user B is a qualitatively good match.

Additionally, when a user is in proximity to two potential matches, only the match indicator of the “best” match will display the display attribute of user A. Thus, in a defined space of many users, display indicators provide a visual cue of a level of commonality between individuals.

In an embodiment, the information server also tracks the matching attribute assigned to users located in an area of the defined space to minimize duplication of the matching attribute.

In another embodiment, the user profile and user matching instructions are stored in the client 140. User matching instructions are configured by the user to meet specific requirements of that user. The information processor 114 determines that users A and B are within a defined space and uses the default matching instructions to determine whether the profiles of users A and B match based on a set of first matching criteria. If the profiles match according to these criteria, the profile of user A is sent to the client 152 of user B and the profile of user B is sent to the client 140 of user A. User A applies user A matching instructions to the profile of user B. If a match is determined according to the matching instructions of user A, user A uses client A 140 to send a user A matching signal to information processor 114. If a match is determined according to the matching instructions of user B, user B uses client B 152 to send a user B matching signal to information processor 114.

If information processor 114 receives both the user A matching signal and the user B matching signal, the information processor 114 issues a match alert signal comprising location and/or contact information to facilitate a meeting between user A and user B. The match alert signal may also include display attributes of each user as previously described.

Alternatively, if information processor 114 receives both the user A matching signal and the user B matching signal, the match alert signal sent by information processor 114 includes only contact information to the users. The users then communicate further without the assistance of the information server.

The presence components of the system illustrated in FIG. 1 may be implemented using a variety of technologies. FIGS. 5 and 6 illustrate a matching system using RFID tags as the presence tags. Other technologies, such as Bluetooth, WiFi, and a GPS system may be used alone or in combination with each other to provide this functionality. As noted above, various embodiments are not meant to be limited to these technologies. Other technologies may emerge in the future that provide a similar functionality. These are deemed to be within the scope of the embodiments noted herein. The client components may be custom devices designed and built to provide the functions of the client or may be derived from other technologies such as cellphones, smart phones, wireless PDAs, and Bluetooth-compliant devices and similar products that have been adapted to provide the client functions.

FIG. 2 illustrates a match indicator according to an embodiment. A match indicator A 142 is coupled to client A 140 via client interface A 210. Client A 140 processes a matching alert signal received from information processor 114 as described previously. The matching alert signal received by client A 140 comprises a display attribute of user B. The matching alert signal is passed by client A 140 to match indicator A 142 worn by user A. The match indicator A 142 is visible to user B (not illustrated) and displays the display attribute assigned to user B. User B wears a match indicator B 154 (see FIG. 1) that is visible to user A. When user A and user B come within proximity to each other, match indicators A and B (142 and 154 respectively, FIG. 1) display the display attribute assigned to user B and A respectively. The matching attribute may be a color, a symbol, a user identifier, or other indicator. In an embodiment, client B 152 “announces” the matching attribute of user A to user B and client A 140 announces the matching attribute of user B to user A. The announcement may be made by a text message or a synthesized voice message or other alerting means such as tactile indicators. In yet another embodiment, the language of the synthesized voice message may be selected by the user.

The match indicator 142 may be an LCD or other type of miniature display that is capable of interfacing with the client 140 to perform the functions described above and to be described below. The match indicator may be a discrete device or it may be integrated with any of the other functional elements of the matching system. In one embodiment, the match indicator is a flat screen that is worn by the user such as a badge, pin, pendant or bracelet. In another embodiment, the functions of the match indicator are performed by a screen of a cellphone or similar device that is carried in a holster and attached to a user so as to be visible to other users of the system.

In yet another embodiment, the match indicator is divided into at least two regions. As illustrated in FIG. 2, match indicator A 142 is divided into region X 250 and region Y 260. As previously described, the display attribute assigned to user B is displayed in region X 250 of the match indicator.

FIG. 2 also illustrates optional biological response processor A 220 and sensors 230 and 240. In an embodiment, the biological response processor A 220 receives physiological data from user A that is indicative of a level of attraction of user A to user B. The biological processor A 220 applies an attraction algorithm to the received physiological data to determine whether the level of attraction is positive or negative. The biological processor sends an “attraction signal” to the client A 140 or, alternatively, the client interface A 210. The attraction signal comprises an attraction attribute that is displayed in region Y 260. User B can thus not only determine the results of the application of the matching algorithm to the profiles of users A and B but can also monitor information about user A's response to user B in real time. Corresponding elements may be used to modify the matching attribute displayed on match indicator B 154. As previously described, the attributes displayed on match indicator A 142 can also be displayed on client B display 180.

By way of illustration and not as a limitation, physiological data may include heart rate, blood pressure, breathing rate, skin resistance, body temperature, voice pattern recognition, and brain electrical activity. The attraction algorithm may utilize these sensed data individually or in combination to produce the attraction signal.

In yet another embodiment, a sensor 230 comprises a microphone that detects the voice of user A. User A bio response processor 220 comprises a voice pattern recognition algorithm that determines whether user A is being truthful or otherwise indicates signs of stress when conversing with user B. User A bio response processor produces a truth/stress signal that comprises a truth/stress attribute this is displayed in region Y 260 of user A match indicator 142.

In an alternate embodiment, the sensor-microphone 230 worn by user A is configured to detect the voice of user B. User A bio response processor 220 produces a truth/stress signal that comprises an audio attribute that can be heard by user A or a display attribute that can be displayed on user A's client display 170 (see FIG. 1).

FIG. 3 illustrates a matching process according to an embodiment. For ease of discussion and not as a limitation, the description that follows applies the matching process to a user A and a user B.

The presence tag identifiers that are within the defined space are obtained 300. In an embodiment, these identifiers are obtained by presence detectors at a preset interval. For this discussion, the “presence” identifiers include an identifier associated with a user A and an identifier associated with a user B. Default matching instructions are loaded into an information processor 305. Profiles of users A and B are retrieved 310. A determination is made whether the profile of a user comprises matching criteria 315. If no user matching criteria are found, the default matching instructions are applied 325 to the user profiles of users A and B. If one or more of the user profiles comprise matching criteria, the default matching instructions are modified to reflect the most restrictive user matching criteria 320.

A determination is made whether the profiles of user A and B “match” 330 according to the applied matching instructions. If a match is found, a match alert signal is sent 335 to the clients of the users for whom a match has been found and the system causes the attributes of the users to be displayed on the other user's indicator 340. Thereafter, the system awaits new polling data 300. If no matching profiles are found, the system awaits new polling data 300 and repeats the matching procedure.

The match alert signal comprises the display attribute assigned to the user to whom the match alert signal is directed. By way of illustration and not as a limitation, if the profiles of users A and B are determined to match, then the match alert signal that is sent to user A comprises the display attribute that is assigned to user B. The match alert signal that is sent to user B comprises the display attribute that is assigned to user A. When user A and user B come within proximity to each other, match indicators A and B (see FIGS. 1, 142 and 154 respectively) display the display attribute that has been previously assigned to the other user 340.

The match alert signal may further comprise audio information, video information, textual information, tactile or graphical information. Additionally, the match alert signal may provide location information of a user or provide directions to the location of a user. As previously described, the information in the match alert signal may be conveyed to the user via the user's client. The user may use the user input (see FIGS. 1, 175 and 185) to request additional information from the information server 110 regarding the matching score and/or override the matching determination made by the information server 110.

In an embodiment, when new presence data is received, the matching procedure is only applied to newly arrived users.

FIGS. 4A and 4B illustrate a matching process according to an embodiment. For ease of discussion and not as a limitation, the description that follows applies the matching process to a user A and a user B.

Referring to FIG. 4A, the presence identifiers that are within the defined space are obtained 400. In an embodiment, these identifiers are obtained by presence detectors at preset (but variable) time intervals. The “presence” identifiers include an identifier associated with a user A and an identifier associated with a user B. Default matching instructions are loaded into an information processor 405. Profiles of users A and B are retrieved 410. A determination is made whether the profiles of users A and B match based on a set of first matching criteria 415. If no matching profiles are found, the system awaits new polling data 400 and repeats the matching procedure.

If matching profiles are found, profile information is provided to the clients of the users for whom a match has been found 420. Referring to FIG. 4B, matching profiles have been found for users A and B. Profile information of user A is sent to the client of user B and the profile information of user B is sent to the client of user A 420.

User A applies user A matching instructions to the profile information of user B 425. If a match is determined according to the matching instructions of user A, user A uses client A to send a user A matching signal to an information processor 430. If there is no match according to the matching instructions of user A, the process ends 435.

User B applies user B matching instructions to the profile information of user A 440. If a match is determined according to the matching instructions of user B, user B uses client B to send a user B matching signal to an information processor 445. If there is no match according to the matching instructions of user A, the process ends 450.

A determination is made whether the information processor has received both the user A matching signal and the user B matching signal 460. If both user matching signals are received, the information processor conveys match alert signals to the respective clients of users A and B 465.

The match alert signal comprises the display attribute assigned to the user to whom the match alert signal is directed. By way of illustration and not as a limitation, a match alert signal that is sent to user A comprises the display attribute that is assigned to user B. The match alert signal that is sent to user B comprises the display attribute that is assigned to user A. When user A and user B come within proximity to each other, match indicators A and B (see FIGS. 1, 142 and 154 respectively) display the display attribute that has been previously assigned to the other user 470.

If the information processor does not receive a match signal from both user A and user B, the system awaits new presence data 400 and repeats the matching procedure.

As will be appreciated by those skilled in the art, whether the matching process is performed sequentially or in batch is a matter of system optimization. In an embodiment, information processor 114 (FIG. 1) processes the profiles of all present users and stores the results before issuing matching alerts. In this mode, the matches may be ranked according to a matching score. The matching alerts may then be sent in order of ranking. Alternatively, a user may specify in the user profile the number of matches to be sent.

In an embodiment, a matching system is implemented at an event, such as a trade show, in which a large number of attendees pre-register. During the registration process, profile information is acquired from potential attendees. This profile information may be used to provide the potential attendee an initial indication of whether persons or vendors of interest will be in attendance at the event. Following registration but prior to the commencement of the event, the registered attendees may be pre-matched according to default matching instructions. Upon the commencement of the event, the presence of the registered attendees is determined. As attendees with matching profiles come into proximity with one another, matching alert signals are provided as appropriate to the attendees. In another embodiment, a determination is made whether a pre-registered attendee has modified his or her profile information since registering. If the profile has been modified, the matching process is re-run using the updated information. Additionally, the matching process is run on attendees who did not pre-register.

The behavior of the matching elements may vary depending on whether the profile information is associated with an individual representing a personal interest or an individual representing a commercial interest. For example, in the case of an event in which the primary objective is to introduce individuals for social purposes, it might be desirable to provide an individual control over the disclosure of their personal information, location, and contact information. In this application, an acknowledgement of a matching alert signal by both of the match users may be desirable prior to initiation of the exchange of information.

In the case where the objective is to match an individual with a product or product information, such as a booth at a trade show, the matching data may be sent to the user's client in real time without the need for an acknowledgment. For example, a user may be alerted when the user arrives at the trade show venue and alerted again when the user is in proximity to a display booth that matches the user's profile. The display booth may comprise multiple matching indicators to allow various attendees to determine whether the booth represents product information that is of interest to the attendee.

The applications to which a matching system incorporating a matching indicator may be directed are numerous. The distinction between them lies primarily in the types of data provided in the profile/preference data associated with the user clients and used to perform the matching process and the way in which the matching information is conveyed to users. The examples that follow assume that users are present within a defined space determined by the range of the presence detectors used to detect the presence of the presence tags (see FIGS. 1, 130, 144 and 156).

In an exemplary application, a matching system operates in a shopping mall. Referring again to FIGS. 1 and 2, a user/shopper has created a profile on the information server 110 that is stored in user A record 120. The user/shopper may create his or her profile before arriving at the mall using a registration portal 650 (See FIG. 6), or the user/shopper may utilize a registration server 630 (see FIG. 6) operating at the mall. The user's profile comprises a shopping list of items that the user/shopper is interested in purchasing. In the application, user B record 122 comprises items that a merchant located within the mall desires to sell. For example, user B record 122 may be items that the merchant has on special or the entire inventory of the merchant. Information processor 114 operates matching instructions that determine if there is a match between the shopping list of the user/shopper and the items of the merchant.

The presence of the user/shopper within the mall is detected by a presence detector 130. If a match has been determined, a match alert signal is sent to the client A 140 of the user/shopper indicating that items of interest to the shopper may be located at a list of merchants. The match alert signal may, for example, identify the items on the shopping list of user/shopper that match the inventories of various merchants within the mall. The shopper proceeds to a merchant identified in the match alert signal.

A client B 152 and a match indicator B 154 are associated with items for sale at the merchant location. The location of the user/shopper within the mall is determined by reference to the location of the presence detector that is in receipt of the presence identifier 148 from presence tag A 144. The direction in which the user/shopper is walking can be determined by mapping the location of presence tag A 144 over time. Another match alert signal may be sent to the client B 152 when the user/shopper is in proximity to an item on the shopper's list. The match indicator B 154 then displays the display attribute assigned to the shopper. In this embodiment, the display attribute may comprise the shopper's name.

In another exemplary implementation, a matching system is operated in a social club in which individuals desiring to meet other individuals congregate. In this implementation, user A is associated with user A presence monitor 138 and user B is associated with user B presence monitor 150. Matching instructions are applied to the user profiles of user A and user B and a match is found. The match alert signal is passed by the client A 140 to a match indicator A 142 worn by user A. The match indicator A 142 is visible to user B. User B wears a match indicator B 154 that is visible to user A. When user A and user B come within proximity to each other, match indicators A and B (142 and 154 respectively) display a display attribute that has been previously assigned to the user. By way of illustration, user A may be assigned the symbol A in a red background and user B may be assigned the symbol B in a blue background. When user A and user B are in proximity to each other, the match indicator of user A would display a B in a blue background and the match indicator of user B would display an A in a red background. The intensity and/or hue of the background color may be varied to indicate the degree to which the profiles match. Additionally, when user A is in proximity to two potential matches, only the match indicator of the “best” match will display the display attribute of user A. Thus, in a defined space of many users, display indicators provide a visual cue of a level of commonality between individuals.

In a variation of this application, users not only wear a user monitor but a presence detector 130 as well. In this application, the presence detector communicates with information server 110 via a wireless link. By placing the presence detector on the user and controlling the polling signal strength and/or receiver sensitivity of the presence detector, the threshold proximity of users to each other before a matching alert signal is sent can be reduced. As a result, the match indicators would be triggered only when individuals are “next” to each other, allowing the match indicator to be highly targeted.

A matching system may be implemented using a variety of technologies. FIGS. 5 and 6 illustrate a matching system using RFID technology.

FIG. 5 illustrates the logical elements of a matching system according to an embodiment hereof. Referring to FIG. 5, an information server 510 comprises an information processor 514, a user A record 520 and a user B record 522. User A RFID monitor 538 comprises RFID tag A 544, RFID client A 540, communications system A 541, and match indicator A 542. RFID tag A 544 comprises memory 546 in which identifier A 548 is stored. Memory 546 may be read only or programmable read/write memory. User A is associated with identifier A 548 in user A record 520 in information server 510. Additionally, information server 510 comprises a communications system 524 for communicating with RFID clients A and B (540 and 552 respectively).

User B RFID monitor 550 comprises RFID tag B 556, RFID client B 552, communications system B 553, and match indicator B 554. RFID tag B 556 comprises memory B 558 in which identifier B 560 is stored. Memory 558 may be read only or programmable read/write memory. User B is associated with identifier B 560 in user B record 522 in information server 510.

In the embodiment illustrated in FIG. 5, RFID tags A and B (544 and 556 respectively) are passive devices. However, the present invention is not so limited. Semi-passive or active RFID tags may be utilized for RFID tags A and B.

User records A and B (520 and 522 respectively) each comprise a user profile. By way of illustration and not as a limitation, a user profile comprises characteristic data and preference data. The characteristic data may include age, marital status, physical size, physical limitations, and similar personal information. Preference data, for example, may include information relevant to establishing a business relationship or a social relationship and information related to preferences in food, clothing, sports, entertainment, and music.

RFID interrogator 530 transmits a polling signal that is received by an RFID tag (such as 544 and 556) that is within range of the RFID interrogator 530. The RFID tag reflects the polling signal back to the RFID interrogator 530. The reflected signal comprises the RFID tag identifier of the responding RFID tag (such as 548 and 560). The RFID interrogator receives the reflected signal and sends the RFID tag identifier to information processor 514. Information processor 514 stores the location of the RFID interrogator 530 in association with the RFID tag identifier in the appropriate user record (such as 520 or 522).

The reflected signal may be further processed to determine a distance between an RFID tag and an RFID interrogator 530. In an embodiment, information processor 514 uses the signal strength of the reflected signal to determine a separation distance. The distance determination may be refined by varying the power of the query signal transmitted by RFID interrogator 530 and/or varying the sensitivity of the RFID interrogator 530 to the reflected signal. In this way, the accuracy of the location of a particular user relative to an array of RFID interrogators may be varied to suit a particular need.

The information server 510 communicates with RFID clients A and B (540 and 552 respectively) via links established between communications system A 541, communications system B 553, and communications system 524. By way of illustration and not as a limitation, an RFID client may be a standalone device or it may be communications devices such as a cellular phone, a pager, a personal data assistant, a transponder, a radio, a walkie-talkie, or a wireless Internet access device. RFID clients A and B (540 and 552 respectively) may also communicate with information server 510 to manage their respective user records, including the user profile. In an embodiment, RFID client 510 stores the user profile locally.

RFID client A further comprises a client A display 570 and a client A user input 575. RFID client B further comprises a client B display 580 and a client B user input 585. Client A display 570 and client B display 580 may display messages from information server 510. Client A user input 575 and client B user input 585 allow clients A and B respectively to compose queries and respond to queries from information server 510. By way of illustration and not as a limitation, client A user input 575 and client B user input 585 may be touch screens, key pads, pointing devices, thumbwheels or similar input devices.

In an embodiment, information processor 515 comprises a set of “default” instructions that determine how the profile information of user A and user B as reflected in user A record 520 and user B record 522 is to be related or “matched.” For example, the default matching instructions may require that a match will be determined only if the age difference between user A and user B is ten years or less.

The default matching instructions may be modified by a preference setting in a user profile. For example, if user B's profile requires that the age difference not exceed two years, the default matching instructions will be modified to use the age criterion of user B's profile.

In an embodiment, a “match” between the profiles of user A and user B is quantitatively determined. In this embodiment, the default matching instructions produce a total matching score by assigning values to specific matching criteria. The default matching criteria and the weight assigned to a specific criterion may be modified by the user profile. If the matching score exceeds a threshold value, the matching score is communicated to users A and B through their respective RFID clients (540 and 552 respectively) via communications system 524.

In an embodiment, when a determination is made that the matching score of users A and B exceeds the threshold, a match alert signal is sent from the information server 510 to the RFID clients 540 and 552 of users A and B. As will be appreciated by those skilled in the art, the match alert signal may comprise audio information, video information, textual information, or graphical information. Additionally, the match alert signal may provide location information of a user or provide directions to the location of a user. The user may use the RFID client (such as 540 and 552) to request additional information from the information server 510 regarding the matching score and/or override the matching determination made by the information server 510.

In an embodiment, the match alert signal is passed by the RFID client A 540 to a match indicator A 542 worn by user A. The match indicator A 542 is visible to user B. User B wears a match indicator B 554 that is visible to user A. When user A and user B come within proximity to each other, match indicators A and B (542 and 554 respectively) display the matching attribute. The matching attribute may be a color, a symbol, a user identifier, or other indicator. In an embodiment, RFID client 540 “announces” the matching attribute of user A to user B and the matching attribute of user B to user A. The announcement may be made by a text message or a synthesized voice message or other type of alerting stimuli. In yet another embodiment, the language of the synthesized voice message may be selected by the user.

In an embodiment, the information server also tracks the matching attribute assigned to users located in an area of the defined space to minimize duplication of the matching attribute.

In another embodiment, the user profile and user matching instructions are stored in the RFID client 540. User matching instructions are configured by the user to meet specific requirements of that user. The information server 510 determines that users A and B are within a defined space and uses the default matching instructions to determine whether the profiles of users A and B match based on a set of first matching criteria. If the profiles match according to these criteria, the profile of user A is sent to the RFID client 552 of user B and the profile of user B is sent to the RFID client 540 of user A. User A applies user A matching instructions to the profile of user B. If a match is determined according to the matching instructions of user A, user A uses RFID client A 540 to send a user A matching signal to information processor 514. If a match is determined according to the matching instructions of user B, user B uses RFID client B 552 to send a user B matching signal to information processor 514.

If information processor 514 receives both the user A matching signal and the user B matching signal, the information processor 514 facilitates a meeting between user A and user B by providing location and/or contact information.

Alternatively, if information processor 514 receives both the user A matching signal and the user B matching signal, the information processor 514 sends only contact information to the users. The users then communicate further without the assistance of the information server.

FIG. 6 illustrates an RFID-based matching system (RMS) configured for a defined space. By way of illustration and not as a limitation, a defined space may include a convention hall, a sports arena, a bar, country club, a shopping mall, an area within a city such as a shopping or commercial district or other place where people of similar interests gather.

Users of the RMS are assigned a user RFID monitor. In FIG. 6, user RFID monitor A 538 and user RFID monitor B 550 are illustrated. However, this is not meant to be a limitation. It is anticipated that many users of the RMS will be in the defined space simultaneously with each assigned a user RFID monitor.

RFID interrogators 530 are situated within the defined space and keep track of the locations of each of the RFID tags. The RFID interrogators communicate with the information server 510 via matching network 610 and with user RFID monitors A and B via wireless network 605. Because the location of RFID interrogators is known, the relative movement of a user can be tracked and the location of the user approximated. This information can be provided to another user via the user RFID monitor.

In an embodiment, information server 510 is accessible to users of the RMS through a registration server 630 and through a registration portal 650 via Internet 640. Users of the RMS system may register with the information server 510, create and/or update the user record, and modify the user profile maintained on information server 510 through these access points. For example, the registration server 630 may be in a kiosk within a shopping mall or at a registration desk for a conference. In addition, a user may access information server 510 from the RFID client associated with the user.

In an exemplary embodiment, a match indicator is used to facilitate a security system. A security clearance is a status granted to individuals allowing them access to classified information, for example, state and corporate secrets. The term “security clearance” as used herein is a formal process to vet employees for access to sensitive information. A clearance by itself is normally not sufficient to gain access. The organization must determine that the cleared individual has a “need to know” for the information. No one is supposed to be granted access to classified information solely because of rank, position, or a security clearance.

A security clearance is generally granted to a particular level of clearance. For example, security system may establish a ranked classification system (from least sensitive to most sensitive) of confidential, secret, top secret, and sensitive compartmented information. At higher level clearances “compartments” represent groups of information that are necessarily separated from each other in content and possibly organizationally as well (although not necessarily so). Thus an individual with access to one compartment of information will not necessarily have a “need-to know” and hence access to another compartment of information. Each compartment may include its own additional clearance process. Such compartmentalized clearances may be expressed as “John has a TS/SCI TK/Q clearance”, where all clearance descriptors are spelled out verbally. Certain government departments may also establish special access programs (SAP) when the risk of loss associated with certain information is exceptionally grave.

Referring again to FIG. 1, user records A and B (120 and 122 respectively) each comprise a user profile. By way of illustration and not as a limitation, a user profile comprises a security clearance level and security compartment. The compartment may be project specific and is indicative of a need to know information about a particular classified matter.

A secured location comprising a presence detector 130 receives a presence signal from a presence tag (such as 144 and 156) that is within range of the presence detector 130. A presence signal received by presence detector 130 comprises the presence tag identifier of the responding presence tag (such as 148 and 160). The presence detector receives the presence signal and sends the presence tag identifier and other signal parameters such as strength, to information processor 114. Information processor 114 stores the location of the presence detector 130 in association with the presence tag identifier in the appropriate user record (such 120 or 122).

The presence signal may be further processed to determine a physical distance between a presence tag (such as 148 and 160) and the presence detector 130. In an embodiment, information processor 114 uses the signal strength of the presence signal to determine a separation distance between the presence detector 130 and any given presence tag 148, 156. The distance determination may be refined by varying the power of the query signal transmitted by the presence detector 130 and/or varying the sensitivity of the presence detector 130 to the presence signal. In this way, the accuracy of the location of a particular user relative to an array of presence detectors may be varied to suit a particular need. Within the secured location, the location of the wearer of the presence tags may be determined with precision.

The information server 110 communicates with clients A and B (140 and 152 respectively) associated with presence tags 144 and 156 via links established between communications system A 141, communications system B 153, and communications system 124. In this embodiment, the links and communications system A 141, communications system B 153, and communications system 124 are secured using means known in the art. Clients A and B (140 and 152 respectively) may also communicate with information server 110 over secured links to manage their respective user records, including the user profile.

Client A further comprises a client A display 170 and a client A user input 175. Client B further comprises a client B display 180 and a client B user input 185. Client A display 170 and client B display 180 may display messages from information server 110. Client A user input 175 and client B user input 185 allow clients A and B respectively to compose queries and respond to queries from information server 110. By way of illustration and not as a limitation, client A user input 175 and client B user input 185 may be touch screens, key pads, pointing devices, thumbwheels or similar input devices.

In this embodiment, information processor 114 comprises a set of security matching criteria that determine how the profile information of user A and user B as reflected in user A record 120 and user B record 122 are related or “matched.” For example, the application of the security matching criteria may determine a degree to which the users of the first and second user monitors are permitted to exchange information according to security matching criteria. The security matching criteria may require that the security level of user B is equal to or higher than the security level of user A, and that user B is cleared for a specific compartment of user A. Additionally, information processor may determine that User B has a need to know information relating to a security matter that is known to user A.

In an embodiment, when a determination is made that the security matching score of users A and B is within an acceptable range or exceeds a predetermined threshold, a security alert signal is sent from the information server 110 via communication system 124 to the clients 140 and 152 of users A and B. As will be appreciated by those skilled in the art, the security alert signal may comprise audio information, video information, textual information, or graphical information.

Referring again to FIG. 2, in this embodiment the security alert signal is passed by the client A 140 to a match indicator A 142 worn by user A and by client 152 to match indicator 154. The match indicator A 142 is visible to user B. User B wears match indicator B 154 that is visible to user A. When user A and user B come within proximity to each other, match indicators A and B (142 and 154 respectively) are illuminated in a manner that indicates a degree to which the users of the first and second user monitors are permitted to exchange information according to security matching criteria applied by information processor 114. Additionally, client A display 170 and client B display 180 may be illuminated in a characteristic manner indicative of a permission to exchange information.

In this embodiment, each user is assigned a security display attribute. The security alert signal that is sent to user A comprises the security display attribute that is assigned to user B. The security alert signal that is sent to user B comprises the security display attribute that is assigned to user A. When user A and user B come within proximity, match indicators A and B (142 and 154 respectively) display the display attribute that has been previously assigned to the other user. By way of illustration, user A may be assigned the symbol A in a red background and user B may be assigned the symbol B in a blue background. When user A and user B are in proximity to each other, if the security profiles permit user A and B to exchange information, the match indicator of user A would display a B in a blue background and the match indicator of user B would display an A in a red background. The security display attribute sent to user A may also be displayed on client A display 170 and the security display attribute sent to user B may also be displayed on client B display 180.

In an embodiment, client 140 “announces” a security attribute of user A to user B and a security attribute of user B to user A. The announcement may be made by a text message or a synthesized voice message or other manner that alerts the respective users. In yet another embodiment, the language of the synthesized voice message may be selected by the user.

The match indicators 142 and 154 may be a LCD or other type of miniature display that is capable of interfacing with the clients 140 and 152 to perform the functions described above and to be described below. A match indicator may be a discrete device or it may be integrated with any of the other functional elements of the matching system. In one embodiment, a match indicator is a flat screen that is worn by the user a badge, pin, pendant or bracelet. In another embodiment, the functions of the match indicator are performed by a screen of a cellphone or similar device that is carried in a holster and attached to a user so as to be visible to other users of the system. In other cases, the match indicator may be displayed for viewing by third parties in an area proximate to an individual in question. In this way, others in the areas can become aware that a person is present who may not have the requisite clearance to be allowed to view or be near certain classified information. In current practice, when a person is present in an area for which that person does not have the required clearance, a light is illuminated. By way of illustration, this light may take the form of a flashing or rotating beacon of some distinctive color, so that those in the area are warned of the presence of that person. Embodiments of the present invention allow for display of such a warning on the screens of those persons working in the a restricted area a soon as the presence of the person in question is detected via the matching system of embodiments described herein. Such warning may also occur on indicators that are worn or carried with or by those in the classified area.

In yet another embodiment, match indicators 142 and 154 are divided into at least two regions. As illustrated in FIG. 2, match indicator A 142 is divided into region X 250 and region Y 260. As previously described, the display attribute assigned to user B is displayed in region X 250 of the match indicator. Region Y 260 may be used to display additional security attributes. By way of illustration, region Y 260 may be used to indicate that user A is entitled to be present in a specific location, has a particular clearance level, or is a visitor or employee. As will be appreciated by those of ordinary skill in the art, match indicator A 142 may be divided into additional regions to display additional security information.

FIG. 2 also illustrates optional biological response processor A 220 and sensors 230 and 240. In an embodiment, the biological response processor A 220 receives physiological data from sensor 230 that is indicative of the physical connection of user A to client 140. The biological response processor A 220 uses the connection data to determine a connection measure that indicates whether user A is connected to client 140 and has been continuously from a baseline time. In this embodiment, the continued connection of user A to client 140 protects the security system from use of client 140 by an unauthorized individual.

In another embodiment, a sensor 240 detects a biometric parameter associated with user A. By way of illustration and not as a limitation, client 140 requires that the biometric parameter be entered at a set interval, or optionally, randomly. The biological processor A 220 applies an authentication algorithm to the received biometric data to determine an authentication parameter that indicates that the individual purporting to be user A is that user that is connected to client 140.

By way of illustration and not as a limitation, biometric parameters may include voice pattern recognition, brain electrical activity, a fingerprint scan, and a retinal scan. It will also be understood that the invention may be embodied in other specific forms without departing from the scope of the invention disclosed and that the examples and embodiments described herein are in all respects illustrative and not restrictive. Those skilled in the art of the present invention will recognize that other embodiments using the concepts described herein are also possible. Further, any reference to claim elements in the singular, for example, using the articles “a,” “an,” or “the,” is not to be construed as limiting the element to the singular. 

1. A security alert display system comprising: match indicators, wherein the match indicators are responsive to presence signals and security alert signals and wherein the match indicators comprise a display having at least first and second regions; a first user monitor, wherein the first user monitor is configured to transmit a first response signal comprising first identification information to a presence detector establishing a presence of the first user monitor within a defined space; a second user monitor, wherein the second user monitor is configured to transmit a second response signal comprising second identification information to the presence detector establishing a presence of the second user monitor within the defined space; the presence detector, wherein the presence detector comprises instructions for: receiving the identification information from the first and second user monitors; and sending the identification information to an information server, wherein the information server comprises a memory, wherein the memory comprises a first user profile comprising information indicative of a security status of a user of the first user monitor, a second user profile comprising information indicative a security status of a user of the second user monitor; and a location profile indicative of a security requirement of the defined space; and an information processor, wherein the information processor comprises instructions for: receiving the information establishing the presence of the first and the second user monitors within the defined space; applying security matching criteria to the first and second user profiles; determining whether the users of the first and second user monitors are permitted to be present in the defined space; generating and sending a first presence signal to the first use monitor, wherein, the first presence signal comprises a first location attribute associated with the first user, the first user monitor is further configured to communicate the first location attribute to the first region of the first match indicator, and the first location attribute is visible to the user of the second user monitor to permit the user of the second user monitor to determine whether the first user is permitted to be present in the defined space; generating and sending a second presence signal to the second user monitor, wherein the second presence signal comprises a second location attribute associated with the second user, the second user monitor is further configured to communicate the second location attribute to the first region of the second match indicator, the second location attribute is visible to the user of the first user monitor to permit the user of the first user monitor to determine whether the second user is permitted to be present in the defined space; determining a degree to which the users of the first and second user monitors are permitted to exchange information according to security matching criteria; generating and sending a first security alert signal comprising a first security attribute to the first user monitor, wherein: the first user monitor is further configured to communicate the first security attribute to the second region of the first match indicator, and the first security attributed is displayed on the second region of the first match indicator displays to permit the user of the second user monitor of to determine the degree to which the users of the first and second user monitors are permitted to exchange information according to the security matching criteria; and generating and sending a second security alert signal comprising a second security attribute to a second user monitor, wherein the second user monitor is further configured to communicate the second security attribute to the second region of the second match indicator, and the second security attribute is displayed on the second region of the second match indicator to permit the user of the first user monitor to determine the degree to which the users of the first and second user monitors are permitted to exchange information according to the security matching criteria.
 2. The system of claim 1, wherein the first and second user monitors are selected from the group consisting of an RFID enabled device, a Bluetooth enabled device, a GPS enabled device, a WiFi enabled device, a cellphone, a smart phone, and a wireless PDA.
 3. The system of claim 1, wherein the first and second match indicators are integrated with the first and second user monitors.
 4. The system of claim 1, wherein the first and second security attributes and the first and second location attributes are selected from the group consisting of a background color, a background hue, a display color, a display hue, a symbol, text, animation, and an animation rate.
 5. The system of claim 1, wherein the first security attribute is unique to the user of the second user monitor and the second security attribute is unique to the user of the first user monitor.
 6. The system of claim 1, wherein the information processor further comprises instructions for: when either the user of the first user monitor or the user of the second user monitor is not permitted to be present in the defined space, then issuing a security location alert.
 7. The system of claim 6, wherein the security location alert is selected from the group consisting of an audible alarm, a visible alarm, a silent alarm, a text message, an audio message, an email message, and a pop-up field on a display a screen blanking image.
 8. The system of claim 1, wherein the first user monitor further comprises: a sensor responsive to physiological data of the user of the first user monitor; and a bio response processor, wherein the bio response processor comprises instructions for: receiving the physiological data from the sensor; determining a connection measure of the user of the first user monitor to the first user monitor from at least one element of the physiological data, wherein the connection measure is indicative of continuous contact of the user of the first user monitor to the first user monitor; determining an authentication measure of the user of the first user monitor from at least one element of the physiological data, wherein the authentication measure is unique to the user of the first user monitor; determining whether the connection measure is less than a connection threshold value; when the connection measure is less than the connection threshold value, then issuing a connection alert; determining whether the authentication measure is less than an authentication threshold value; and when the authentication measure is less than an authentication threshold value, then issuing an authentication alert.
 9. The system of claim 8, wherein the physiological data are selected from the group consisting of a heart rate, a measure of blood pressure, a measure of breathing rate, a measure of skin resistance, a measure of body temperature, a voice pattern, and a measure of brain electrical activity.
 10. The system of claim 8, wherein the connection alert and the authentication alert are selected from the group consisting of an audible alarm, a visible alarm, a silent alarm, a text message, an audio message, an email message, and a pop-up field on a display.
 11. A method for displaying a security alert comprising: configuring a first user monitor to transmit a first response signal comprising first identification information to a presence detector; establishing a presence of the first user monitor within a defined space; configuring a second user monitor to transmit a second response signal comprising second identification information to the presence detector; establishing a presence of the second user monitor within the defined space; configuring the presence detector to receive the identification information from the first and second user monitors and to send the identification information to an information server; configuring the information server to: store a first user profile comprising information indicative of a security status of a user of the first user monitor, a second user profile comprising information indicative of a security status of a user of the second user monitor, and a location profile indicative of security requirement of the defined space; receive the information establishing the presence of the first and the second user monitors within the defined space; apply security matching criteria to the first and second user profiles to determine whether the users of the first and second user monitors are permitted to be present in the defined space; generate and send a first presence signal to the first use monitor, wherein, the first user monitor comprises a first match indicator having a display comprising at least first and second regions, the first presence signal comprises a first location attribute associated with the first user, the first location attribute is communicated from the first use monitor to the first region of the first match indicator and displayed, the first location attribute is visible to the user of the second user monitor to permit the user of the second user monitor to determine whether the first user is permitted to be present in the defined space; generate and send a second presence signal to the second user monitor, wherein, the second user monitor comprises a second match indicator having a display comprising at least first and second regions, the second presence signal comprises a second location attribute associated with the second user, the second location attribute is communicated from the second user monitor to the first region of the second match indicator and displayed, and the second location attribute is visible to the user of the first user monitor to permit to the user of the first user monitor to determine whether the second user is permitted to be present in the defined space; determine a degree to which the users of the first and second user monitors are permitted to exchange information according to security matching criteria; generate and send a first security alert signal comprising a first security attribute to the first user monitor, wherein, the first security attribute is communicated from the first user monitor to the second region of the first match indicator and displayed, and the first security attribute is visible to the user of the second user monitor to permit the user of the second user monitor to determine the degree to which the users of the first and second user monitors are permitted to exchange information according to the security matching criteria; generate and send a second security alert signal comprising a second security attribute to the second user monitor, wherein the second security attribute is communicated from the second user monitor to the second region of the second match indicator and displayed; and the second security attribute is visible to the user of the first user monitor to permit the user of the first user monitor to determine the degree to which the users of the first and second user monitors are permitted to exchange information according to the security matching criteria according to the matching criteria.
 12. The method of claim 11, wherein the first and second user monitors are selected from the group consisting of an RFID enabled device, a Bluetooth enabled device, a GPS enabled device, a WiFi enabled device, a cellphone, a smart phone, and a wireless PDA.
 13. The method of claim 11, wherein the first and second match indicators are integrated with the first and second user monitors.
 14. The method of claim 11, wherein the first and second security attributes and the first and second location attributes are selected from the group consisting of a background color, a background hue, a display color, a display hue, a symbol, text, animation, and an animation rate.
 15. The system of claim 11, wherein the first security attribute is unique to the user of the second user monitor and the second security attribute is unique to the user of the first user monitor.
 16. The method of claim 11 further comprising when either the user of the first user monitor or the user of the second user monitor is not permitted to be present in the defined space, then issuing a security location alert.
 17. The method of claim 16, wherein the security location alert is selected from the group consisting of an audible alarm, a visible alarm, a silent alarm, a text message, an audio message, an email message, and a pop-up field on a display a screen blanking image.
 18. The method of claim 11 further comprising: receiving physiological data from a sensor; determining a connection measure of the user of the first user monitor to the first user monitor from at least one element of the physiological data, wherein the connection measure is indicative of continuous contact of the user of the first user monitor to the first user monitor; determining an authentication measure of the user of the first user monitor from at least one element of the physiological data, wherein the authentication measure is unique to the user of the first user monitor; determining whether the connection measure is less than a connection threshold value; when the connection measure is less than the connection threshold value, then issuing a connection alert; determining whether the authentication measure is less than an authentication threshold value; and when either the authentication measure is less than an authentication threshold value, then issuing an authentication alert.
 19. The method of claim 18, wherein the physiological data are selected from the group consisting of a heart rate, a measure of blood pressure, a measure of breathing rate, a measure of skin resistance, a measure of body temperature, a voice pattern, and a measure of brain electrical activity.
 20. The method of claim 19, wherein the connection alert and the authentication alert are selected from the group consisting of an audible alarm, a visible alarm, a silent alarm, a text message, an audio message, an email message, and a pop-up field on a display. 